Stamp issuing machine



y c M m w U u w F. Q. RAST S-TMP ISSUING MACHINE Filed Dec. 13, 1938 FIG. l.

` FIG.- 2. 6v a' /Qa/VZ/v/ygf .v0 f: 7V .ya

Dec. 31', 1940.

AIP

'INVENTOR' FREDEAItK Rasr Bmw AT'TORNEY Dec. 3l, 1940. i F. Q. RAsT STAMP IssUING MACHINE 13; 1958 6 Sheets-Sheet 2 Filed Dec INVENTOR. FREDERICK Q. R457 A TTORNE Y Dec. 31, 1940. F. Q. RAST 2,226,980

STAMP IssUING MACHINE Filed Dec. 15, 1958 FIG. 4. HW

6 Sheets-Sheet 5 /aal loo` 23 u; t 23 2l 2l 5 22 i 26- F E,

zs-c 254 l v. Vj l I l 7 37 a g; 95 95 63 7 82 il. Q

1 l-Q v o 39d 47d 94. 29049 um fm 1 um /09 .13 I5 /5 I FIG. 14. 7 "'8 y INVENTOR v FREDERIC/l QR/LST N BY y ATTORNEY Dec. 31, 1940. F. Q, AST 2,226,980

STAMP IssUING MACHINE Fired Dec. 15, 19:58' e sheets-shea .4

, INVENTOR, FEEDER/Ch Q.. HA 3T BY l,

, ATTORNEY F. Q. RAST- STAMP IssUING MACHINE Filed Dc. 13, 1938 6 Sheets-Sheet 5 INVENTOR FREDERICK Q. R/LST ATTORNEY Dec. 31, 1940.

F. Q. RAsT' STAMP IssuING MACHINE Filed Dec. 13, 195s 6 sheetssheet 6 FIG. 10.

ATTORNEY Patented Dec. 31', 1.940v

PATENT .oF-Fics 'azzecca s'rnrr resume momma Frederick Q.

:mev mammals'. Langner to International Business Machines Comration, New York, N. Y., a corporation o! New York Application December 1 3, 193s, serial No..24s,405 c claims. (ci. zas-c1) This rcase relates to postage printing and metering machines and is concerned qwith improvements on the'machines disclosed inmy previous Patents Nos. 2,111,128 and 2,120,373.

In the latter patent, a machine is disclosed for weighing a .package to set selector means for selecting a postage value in accordance with Weight and a selected postal zone. Under control of such selector means, devices are operated `to control the printing of a postage stamp having the denomination selected by the selector means and for registering the value of such printed stamp. In Patent No. 2,111,128, a similar machine is disclosed, but in which is provided, in addition to .the means for printing and registering a stamp value undercontrol of the weight and zone selector means, supplementary means for alternatively, manually setting up a surcharge value for controlling the registration of the surcharge value and the printing-of a surcharge stamp. ance, registration, or the like, to be added to the parcel V:posta-ge charge of the package.

machine disclosed in Patent 2,111,128, the surcharge stamp and the parcel postage stamp are required to .be separately issued and metered, since the surcharge device andthe weight controlle`d device may operate only alternatively and one at a time. 30' According to the present invention, means are provided to print a single postage stamp and to register the value thereof under the combined While the invention is concerned primarily f with the provision of parcel postage and surcharge means in relation to parcel postage printing and metering means, it-is also within the l purviewv of the 'invention :to provide means of general application for causing a plurality of denominational order sets of value selectors to controla device to compute the combined valuesselected .by said selectors and, in accordance with the computation, control the indication, record.

ing, and registration of the sum of th'e values 55 selected by the different selectors. Stated an- Such surcharge may be a fee for insur- Inthev f other way, itis one of the objects to provide compting means controlled by a plurality of sets of value selectors for adding multi-denominational orders o1 values setup by the .different selectors to providea single computation of the sum of such values; and incidental to lthe addition of the multi-order, values the invention provides novel transfer or carry-over means to transfer from one order -to the next higher one. 'Ihe invention thus aims to provide novel computing means controlled by a plurality of value selector units for adding -the values set up by said selector units and combining such Ivalues into a single computation to control value manifesting means such as printing and registering means. Y

Other objects of the invention will be pointed out in ,the followingdescri-ption andl claims and illustrated inthe accompanying drawings," which disclose, by way of example, Ithe principle of the invention and the best mode, which has been contemplated, of applying that principle In the drawings:

Fig. 1 is a sectional elevation through a portion of `'the machine,

Fig. 2 is the timing chart,

Fig. 3 is a section along lines 3-3 of Fig. 4,-

Fig. 4 is a section along lines 4-4 of Fig. 3,

` Fig. 5 is a section along lines 5-5 of Fig. 4,

Fig. 6 is a view of the portion of Fig. 5 showing .the carry-over mechanism,

Fig. 6a is'a detail view, showing one of the latches and lthe related transfer rack of the reading means,

Fig. 7 is a section along lines l-l of Fig. 4,

Fig. 8 is a section along lines 8 8 of Fig. 7,

Fig. 9 is a detail perspective view of the rack on the reading means of the dimes and dollars order, l

Fig. 10 showsthe dimesorder carry-overV latch cam mechanism,

Fig. 11 shows the carry-over feeler cam mechanism of the dollars order,

Fig. 12 illustrates the cam mechanism for the positioning arm of the dollars order,

Fig. 13 shows the carry-over rack restoring cam and linkage, and

Fig. 14 is a section through the intermediate sleeve assembly of the cents or dimes order of computing means.

As disclosed in my Patent 2,120,3l3 the ma- 50 chine includes a weighing unit (not shown here) which weighs the parcelto be mailed and in ac cordance with the weight automatically-controls common rotation o! stepped value selector disks to a position corresponding to the load. There are a plurality of sets of these selector disks mounted for common rotation and for axial ad-v justment. 'I'he axial adjustment is for the purpose of selecting one set of the selector disks for control purposes in accordance with the zone to which the :package is to be mailed. This zone selection is effected by zone selecting means, disclosed in the abovementioned patent, Ibefore the selector disks are rotated -to load position under control of the scale unit. Each set of stepped selector disks includes a dollars denominational order disk, a dimes order value disk, and a cents order disk. Similar elements of different denominational 'orders may be distinguished inaccordance with the denominational order .tofwhich they belong byappending to their common reference character the letter D, d, or c, respectively indicating dollars, dimes and cents orders. For the pur-poses of the presen-t invention only two disks I0-d (Fig. 5) and Ill-c (Fig. 3) -need be shown. It is also to be understood that 4the principles of the invention are applicable to machines in which elements such as disks I0 or the like may be set by means other than weighing mechani'sm and without regard to zone selection or the like.

Disks I0 are formed with steps I0' of different heights to represent the different values 0 to 9, the highest step being a O step, as indicated in Figs. 3 and 5. Each -step of disk IU-c represents one of the O to 9 cents values, while each step of disk III-d represents 0 to 9y in the dimes order. In addition to the set of value selector disks I0, a supplementary set of value selecting means is provided, which in this particular case is intended to set up a surcharge value, such as the postal fee for registering or` insuring the parcel to be mailed. The surcharge value selector means comprise three manually settable disks II (see Figs. 3, 4, and 6) rotatably mounted on a common rod I2, each disk being provided with a finger piece III extending through slots I3 in the casing I3. Alongside each slot, the value positions of a disk are designated by a set of figures 0 to 9, as shown in Fig. 5. There are three disks II-D, II-d, and II-c tov s'et up dollars, dimes, and cents surcharge Values. To select a desired surcharge, the operator engages finger pieces II' and moves the disks until the nger pieces are alongside the desired value indications. Each `disk II is formed with a V- notched portion IIa for coacting with a retaining pawl I4 to retain the disk impositively in its Yselected position. Also formed on each disk II is a segmental gear portion IIb adapted to mesh with the teeth of a pinion I5. As indicated particularly in'Fig..14, pinion I5 is av rigid part of an intermediate sleeve assembly including va smaller pinion I6 and a stepped cam I'I. There is one such assembly for each value order, but in addition to pinions I5 and I6 and stepped cam II, the` cents order and dimes order assemblies each include a transfer disk I8.. Referring to Fig. 3, the'cam I1 f each of the value orders' is formed with diametrically opposite, similar, spirally stepped cam portions Ila and I'Ib, each such portion having ten steps I1' of different heights to represent the digital values 0 to 9, the highest step representing v alue 9. The intermediate sleeve assemblies are rotatably carried by a common rod 20 supported between the outer ends of bail arms 2| (see Figs 3, 4, 5, andf) which at their rear ends are rotatively carried by` a i o shaft 22 (also see Fig. 1). ATo this shaft are xed .a pair of crank arms 23, the free ends of which .surcharge disks I I.

yare forked to receive studs 24 (see Fig'. 6) of bail o intermediate sleeve assemblies to positions reprefsenting the surcharge values. Thus, as a result of the surcharge setting, a step I'l' 0f each cam portion Ilasuch step corresponding to the selected surcharge value of the same value order will loe-selected forcontrol purposes.

After the surcharge-setting has been effected, the intermediate sleeve assemblies are lowered, in a manner which will be explained later, by rocking the shaft 22 counterclockwise (as viewed in Figs. 3 and 5), thus demeshing pinions I5 from their associated segmental portions IIb of IThe disks II are now ineffective to change the setting of cams I'I. When -the intermediate sleeve assemblies are lowered,

the small pinions I6 move into mesh with associated racks 25-D, d, and c. teeth of elements I Ib, I5, I6 and 25 are such that pinions I6 will engage racks 25 before pinions I5 completely leave teeth IIb, thus preventing any change in the setting of the intermediate sleeve assemblies during the shifting of control of the latter fromI the surcharge disks to the racks 25.

The lengths of the The further actuation of the sleeve assemblies can now be effected only by movement of racks 25 which are parts of the reading means for reading disks I The movement of a rack 25 through a tooth distance causes rotation of the associated sleeve assembly through one value step. Differential movement of racks 25 is effected in accordance with operation of the means for readingthe steps of weight and zone parcel postage selector disks I Il.-

'I/'he reading means for reading the steps of disks I0 comprise feelers 26 which are rigidly secured to the front ends of primary slides 21, mounted for horizontally slidable movement by means of slots 21 coacting with fixed guide rods 28. order. The cents order slide has the cents order rack 25-c rigid therewith (see Fig. 3). The dimes and dollars orderslides 21 slidably vcarry their respective racks 25-d and\D (see Figs. 5 and 9), for a purpose which will be brought out later.

25-c, the racks 25-d and D may be 'referred to as the transfer racks, the effecting of a transfer movement being one of their functions. The transfer racks 25-D andd are similarly mounted in a manner which may be understood from Fig. 5, showing the dimes order. The transfer rack has a pair of headed guide `studs 29 passing through horizontally elongated slots 30 of the 'primary slide Z'I-d. The length of each slot There is one primary slide 2l for each value.

To aid in differentiating movably mountl .ed racks 25-d and D from rigidly carried rack Cil the latter.

Pivotally carried each of the slides of lever 45. A spring 48 between link 42 21 of the dimes and dollarsl orders is a latch 34 formedwith a shoulder 34' (Fig. 6), initially spaced in front of a tab 25' of the associated transfer rack forA a.distance equal to half a tooth of the rack. The tab 25' is :if-transversely bent portion of a lug 25a integrally dependent from the transfer rack, and the front, vertical edge 'of which is in the plane of a shoulder 35a of a.

transfer pawl 25 pivotally carried by the primary slide through a pivot stud 28. Initially,v

the distancel between the shoulder 25a of pawl and the front of lug 25a is a single, full tooth distance. Latch 34 is provided at its free end with a pin 31 movable along a horizontally elongated slot 38' of a lever 88, which follows a cam Salon main cani shaft 48. Theprimary slide 21 is movable dierentially in a horizontal 4direction to sense the valueset-up of a selector disk I0, while follower lever 38 moves rectiline.

arly in an inclined direction, being guided for such movement by coaction of its upper slot 38a with a guide rod28, and by coaction of its lower yoke portion 38h with a bushing on the main cam shaft 48. In -order to permitl horizontal movement of primary slide 21 relatively to fol-` lower lever 38, the latter is formed with the elongated slot38' along which pin 31 of latch 34 may move together with vthe primary slide.

Accordingly, in any position to which the primary slide 21 may be moved, carrying the latch 34 along with it, the pin` 31of the latch will be in coaction with slot 38' of lever 38.

During the machine cycle, each dependent arm 33 yis first permitted to move to the right to enable' the associated transfer rack 25 to advance under the impetus of spring 3|. This advance is through half a tooth until the tab 25 engages the shoulder 34' of latch 34. The cam follower lever 38 is then moved downwardly by .cam 39, against resistance of a spring 38a (see Fig. 5), and this action of lever 38, through coaction of slot 3,8' with pin 31, lowers latch 34 to withdrawshoulder 34 from tab 25', permitting spring 3| to move the transfer rack further for half a--tooth distance until the front of lug 25a is stopped 'by shoulder 35a of transfer pawl 35. f V

Transfer pawl 35 is also bodily carriedby the primary slide 21 by means pf pivot stud 36 and, therefore, maintains thesame horizontal position relative to the transfer rack and to latch 34 throughout the advance of the primary slide. The forward end of pawl 25 is provided with a stud 35' movablealong a guide slot 42' of a link 42 (see Fig 6) which is pivotally mounted on a pin 43, also serving to pivotally connect a follower lever 44. to the lower arm of a transfer cam feeler lever 45. The upper end of lever 4 is formed with a transversely bent lug 45' for Aengaging the periphery of the transfer cam I8 of the next lower order of the computing means. rllhe transfel cam has tWQsemi-circular lobes Ia and IBb, the former at a greater radius than During the movement of the said next lower order from 0,to 9,'the higher lobe I8a is in front of lug 45', but upon further movement from the 9 to the next V"0 (10) byacam41oncamshaftlandwhich'actson cam follower lever 44 to time its descent and thereby to time the counterclockwise movement and a pin 45 on transfer lever 45 yieldingly maintains the upper edge of the link-against the pin.

As the dimes or dollars slide 21 advancesa differential amount, the transfer 'pawl 25 of the same order is carried along with its primary slide, and during this movement of the pawl 25. its pin 25' moves along slot 42' of link 42. When cam 41 permits lever 44 to descend, the transfer lever 45 rocks to cause its lug-45 to-sense the periphery oftransfer cam I8.of the next lower order. As lever 44 descends, pin 48 connecting this lever to link 42 moves down,` and at the same time. as lever 45 rocks counterclockwise its pin 45 also moves downwardly and in conjunction with the descentof pivot 43' depresses the 'link 42l bodily. When 'link 42 is depressed, its slot 42 coacts with pin 85' `of transfer pawl 35 to rock the pawl downwardly about its pivot 28. If the next lower order has not moved through its\9-" to 0`position, the high lobe I8a of `its transfer cam will stop counterclockwise rocking of lever 45 of the next higher order, thereby also arresting descent of the follower lever 44. Hence, link 42 .will not be depressed sufficiently to lower pawl 35 the distance necessary to release pawl shoulder 35a from the lug 25a of the associated transfer rack. Consequently, the transfer rack will have moved only one tooth distance forwardly relative to its carrying slide 21, this distance including a half tooth advance of the rackupon its release by dependent arm 33, untiltab `25 engaged shoulder 34' of latch 34, and another half tooth advance of the rack upon release of latch 34 from the tab 25' until the lug 25a engaged shoulder 35a.

However, if the lower order has moved through.

of lug 25a of the transfer rack. As a result, spring 3l 'advances the transfer rack an addi.

tional full tooth distance relative to its primary slide 21 before the `right hand ends of guide slots 80 of the primary slide engage the studs 29 of the ,rack to stop movement thereon This additional one tooth movement of rack 25 -is the 'transfer step resulting from the movement of theV \next lower order computing assembly through i the 9 to 0. positions. As a consequence of this transfer step; the higher order intermediate sleeve assembly is rotated'an additional step, bringing the next value step I1 of its -cam I1 into control position.

Initially each reading finger 25 is spaced from the locus of the .0 step of Aparcel postage selector disks I8 a distance equal to half a tooth ad- 'vance' of a rack 25. The cents order rack is fixed to its primary slide 21 so that due to the half step advance of the slide necessary to bring the linger 28 into the locus of the 0 step I0' of disks I8, the cents order of'intermediate sleeve 4assembly will be' rotated half a step. Inltially, the 0 step of cam lI1a of the cents order is half a step behind the control position. 4Accordingly, the initial movement of the cents order` of reading means merely brings -the "0 step oi cents order cam I1a to control position provided, however, that the cents surcharge setup was zero. The dimes and dollar orders of of advance to 0 positions, thus having a total take-up movement of one-and-a-half steps. The initial preliminary position of the steps I1"of cams Ha of the dimes and dollars order is one-and-a-half steps behind the control positions, so thatthe advance of 'the intermediate sleeve assemblies ofthendimes and dollars orders through one-and-a-half steps, which occurs each machine cycle, merely brings the U steps I1 of cams |1a to control positions, provided, howeventhat the dimes and dollars surcharge set-up was zero. If the surcharge set-up of any order is above zero, the step i1 corresponding to the selected siircharge value will be behind the control position, one-half step if in the cents order and one-and-a-half steps if in either` the dimes or dollar order. s i

The stepped cams I1 of the several orders of the intermediate sleeve assemblies of the com puting means c'ontrol corresponding orders of value printing and registering means of' a removable meter. The construction. and operation of this meter are fully explained in my aforementioned Patent No. 2,120,373, and only such parts as are required for an understanding of the present invention will be explained herein.

The control position of a cam step I1 of 'cam I1 of a value order is its position directly in front of a stud 52 oifa corresponding order of meter slide 53. During the main cycle (see Fig.

2), each slide 53 is advanced to. engage its 4stud 52 with the cam step I1' in ycontrol position, thereby arresting the slides 53 after a differential movement' inversely proportional in extent to .l the value of the controlling cam step. As slide 53 advances, its slot 53' coacts with a pin 54 of a stepped arm 54 to rock the latter a corresponding angular amount on a pivot pin 55. -Arm 54 is bodily carried, through said pivot pin 55 by a carrying member 56. Member 56 has a lower gear sector 56a meshed with a pinion 51 on a type wheel 58 bearing types 58. An upper gear sector 56h of member 56` meshes with pinions 69 and 60 of ascending and descending registers A and B.

Arm 54 has nine steps 9 to lfas indicated in Fig. 3. In accordance with the differential advance of meter slide 53, the stepped arm will be angularly positioned to place a correspond-'- ing value step 54' in the path of a lug 62' of van actuating arm 62. During. the meter cycle, arm 62 cornes down, its lug 62 engages the step 54 in its path and thereafter' to the end of the down stroke forces the arm 54 downwardly, thereby effecting clockwise rocking of carrying member 56. 'Ihe -member 56, through coaction of its gear sector 56a with pinion 51, rotates the type wheel 58 to set, at the printing position, the type element 58' corresponding to the value readout of the computing assembly. During the ref turn stroke of member 56, the type wheel is restored, while'upper gear sector 56h actuates pinions 59 and' 60, which through ratchet means.6i, enter the value which has been printed into ascending and'descending registers A and B.

Assuming the machine is to operate for computing printing, and registering a postage charge which includes a surcharge fee as well as the parcel postage fee for a parcel, there are three preliminary steps to be taken by the operator. These are one, to effect a-zone selection for setting the value disks l0 of a desired zone in front of reading fingers or feelers 26; two, to apply the parcel to the scale unit, causing the weighing mechanism to operate in accordance with the weight of the package; and three, to effect the surcharge setting by moving surcharge disks to positions corresponding to the surcharge value. These three steps may be performed in any desired order.

Having selected the zone, set the surcharge .disks l i, and applied the parcel tothe scale unit, the operator waits until the scale comes'to rest under the load, and then depresses an operating handle 65 (Fig. 1). YAThe depression of handle 65 advances a slide bar 66 which has studs 61, the rear one of which closes a toggle switch 68 upon f advance of the slide bar while the leading pin 61 opens the switch upon restoration of the slide bar. As bar 66 is now advanced, the switch 6B is closed setting a motor (not shown) in operation. The forward end ofthe slide bar 66 is pivotally connected to a crank arm 69 rigidly dependent from the shaft 22, and when `bar 66 is advanced, it acts through arm 69 to rock the shaft 22 counterclockwise. Accordingly, arms 23 (see Figs. 4, 5, and 6) of shaft 22, by coaction with studs 263, rock the bail arms 2|, the shaft 20 supported thereby, and the sleeve assemblies on the shaft 20, downwardly. This demeshes pinions I of the intermediate sleeve assemblies from gear teeth lib of the settable surcharge disks Il, and meshes the small pinion i6 with the racks 25 of the reading assemblies. The arrangement and size of the pinions, gear teeth, and racks are such as to engage the pinions I6 with the racks 25 before the pinions l 5 completely disengage the gear. teeth IIb, thus preventing accidental rotational displacement of the intermediate sleeve assemblies from the positions in which they have already been set by the surcharge disks Il. A

Also connected to the slide bar 66, near its forward end, is a lever (Fig. 1) which upon advance of the bar 66 advances a second bar 1|.

but disclosed in my aforementioned Patent 2,120,3'73) for locking a ratchet disk 12 fixed to the weight shaft (not shown) of the Weighing means in an even pound load position corresponding to the Weight of the parcel for which the parcel postage is to be computed. Upon the locking of ratchet disk 12 in load position, means (not shown) are set in operation for automatically setting the value disks Ill, under control of the weighing mechanism, Ain a rotative position corresponding to the locked load position of the ratchet disk 12. Upon disks I0 being arrested in the load position, means (not shown) are operated to energize a clutch solenoid 14 (Fig. 1). The clutch solenoid thereupon rocks a latch downwardly, releasinga detent 16 for clockwise rocking by a spring 11, causing the detent to withdraw from a clutch dog 18, which thereupon engages a driving ratchet clutch disk 19. Disk 19- (also see Fig. 7) and when dog 16 engages driving ratchet 19, the driven disk 80 is coupled to drive ratchet 19 for one revolution. Before the Awhich the main tion.

84 ilxed to thev main cam shaft l0. Through this transmission, the revolution of clutch disk 30 eifects a one-revolution cycle of cam shaft 40, and this cycle may be referred toas the main cycle (e As indicated in Figs. 7 and 8, an' arm 85 is carried bygear to strike an arm 80, carried by a' gear 81, at`909 of the main cycle. Gear 01 is an interrupted gear, having a smooth arc 81' initially in front of gear 80. When'arm 35 of gear Il strikes arm 00, the gear 91 is rotated to`.

bring the teeth of gear 01 into mesh with gear 0|,

starting the meter cycle at 90? (see Fig. 2). Rotation of gear 91 continues till 310 of themachine cycle. Gear 01, through bevel gearing 08,

rotates a cam shaft 09 (also see Fig. 1) Ifor one revolution. Shaft 89, through gearing (not shown) effects one revolution of meter cam shaft 90 vco (Fig. 3). The purpose of initiating the meter cycle after the machine cycleA has been already started is to permit the addingcomputing section, including stepped cams I1, to be completely set before the meter parts begin to read out the setting of these cams l1.

Operation To understand the mode of operation of thev machine, assume that a surcharge of $1.23 is to be applied to a parcel, the parcel postage on which for a particular zone is $4.87. 'Ihe operator cifects the zone selection and places the parcel on the scale. their gear portions ilb initially meshed with pinions |5of the intermediate sleeve assemblies and the setting of these disks to the surcharge amount $1.23,-through gear teeth lb and pinions I5 sets the intermediate sleeve assemblies, including stepped cams l1, in accordance with the surcharge Values. of $1.23, the 3 step l1' of cam |1a of the cents order, the 2 step of cam |1a of the dimes order,

and the 1 stepof canr |1a of the dollars order are preliminarily selected by the surcharge means. The scale having come to restunder the weight 'of the parcel, the operator depresses control handle 65 (Fig. 1), as a result of which the following occur:

(l) Pinions l5 of the intermediate sleeve assemblies are lowered, preventing any change in their surcharge setting, and the pinionsl are meshed with racks 25 to place the intermediate sleeve assemblies under control of'the reading means.

(2) The parcel postage v'alue disks l0 of the selected zone are set ln'load position in readiness to control the reading means. IWhen set in load position, the cents disk |0-c according to the assumed example, 'ofthe parcel postage of $4.87

' has a "1 step In' mirent of anger zs-c, the

dimes disk Ill-d has an "8 step in front `of linger 26-d, and the dollars disk has a "4 step in front of its reading ilnger 29-D.-

,(3) 'I'he setting of these steps l0v in control positions initiates the main cycle (Fig. 2) during Surcharge disks Il have Thus, for the assumed surcharge cam shaft. makes one revolu- On cam shaft 40 is a box cam 92 (see Figs. 4, 7, and 13) which coacts with an arm 93 fixed to a shaft 94 which rigidly carries a pair of bail arms 95 (also see Figs. 3 and 5), connected at their upper ends by a bail rod 9i,`initially abutting the front of portions 2,0' of the lingers 26 of the reading means. Coil springs 91, one between the ro'd 96 and each primary slide 21,l urge the` slides to follow the rod 96. Referring to Fig. 2, thel box cam 92 acts between 0 and 45 of the main cycle to rock the bail rod 96 clockwise, causing primary 'slides 21 to follow until fingers 26 abut the parcel postage selector disk steps l0 in control positions, after which the springsl 91 yield while the bail 95 continues to the end of its forward stroke. The engagement of fingers 20 with steps I0' arrests-the primary slides 21 in differential posl- (also see Figs. 3, 4, and 5), connected to a link |02 which follows the periphery of a cam |03. As indicated in Fig. 2, cam |03 acts between 0 'and about 21 of the main cycle to permit arms 33 to move to the right (Fig. 5), thereby releasing racks 25 of the dimes and dollars orders for a.

As shown v half tooth movement forwardly relative to their primary slides 21, as previously explained. This initial relativemovement of racks 25 of the dimes and dollars orders of primary slides 21 is terminated when their tabs 25' (Figs. 5, 6, and 9) en- '.gage shoulders 34 of latches 34 carried by the same orders of primary slides.

In the example of a parcel postage charge of $4.87, the disks I0 will stop the primary slides 21 of the dollars, dimes, and cents orders after they have moved, respectively, four, eight, and seven steps. 'Ihe racks 25 ofthe primary slides have moved bodilyalong with the slides and through engagement with pinions i6 have rotated the dollars, dimes, and centsrorders of cams l1, yin a counterclockwise direction (Figs. 3 and 5) through four, eight, and seven steps respectively. In addition, each primary slide has a zero take-up movement of half a step which is communicated to their respectively associated cams l1. Preliminarily, a surcharge value of $1.23 has been set up, advancing the dollars, dimes, and cents orders: of cams l1 counterclockwise, one, two and three steps respectively. Thus at the end of the lreading movement of the primary slides timed by cams 92, the cents order of cam l1 will have been rotated counterclockwise a total of ten and a half steps, consisting ofthe three cam at the end of the reading movement ofthe.

dimes primary slide 21 will have been rotated counterclockwise a total'of eleven steps, due to the surcharge advance of two steps plus the eight steps of parcel postage read-out movement of the dimes Order slide, plus the half-step take-up of cam portion |1b one-half step behind control of the primary slide, and the half-step take-up of the rack -d. Initially, as previously explained, the dimes order cam |1 has its 0" step of portion 1a one-and-a-half steps behind the control position which is in frontof stud 52 of.

the dimes meter slide. Thus, eleven steps of advance of `the cam |1-d will bring the ,0 step tions (as distinct from the restoring operations).

The cents order cam |1b now has its 0 step in control position, the dimes order cam |1b has its 0 step one-half step behind the control position, and the dollars cam |1a has its 5 step one-half behindcontrol position.

The next actionvwhich takes place is the differential positioning of cents order slide 53 under control of '0 step I1 of cam |1b. This positioning is done under control of a boX cam |05 on main cam shaft 40. (see Figs. 3 and 4). Box

cam |05 coacts with a follower roller |06 on a follower |01 pivoted to a crank arm |08 of a shaft |09 to which bail arms ||0 are fast. A bail rod connecting the bail arms ||||y abuts the front of a cents order positioning arm |2-'c and is connected thereto by a spring ||3 which urges the positioning arm to follow the bail rod. The upper end of arm ||2c is provided with a stud H2 located in a slot` ||4 in the cents order meter slide 53-c. Between 45 and 80 of the main cycle (see Fig. 2), cam |05 moves follower |01 to the right (Fig. 3), rocking bail rod I|| clockwise, which through spring ||3 yieldingly draws positioning arm ||2c to the right. The arm ||2-c, in turn, moves meter slide 53--c to the right until its pin 52 engages a step I1 of cam I1 of the cents order intermediate sleeve assembly. According to the assumed example, a 0" step of the cents order cam portion 1b is now in control position, so that cents order slide 53 is arrested in 0 position, while bail rod completes its forward stroke, spring ||3 yielding to permit arm ||2cA and connected meter slide 53-c to be stopped in differential position while the bail rod completes its forward stroke.

As the cents order intermediate sleeve assembly was move'd through ten steps,'resulting from the addition of the surcharge value of 3 to the parcel postage value of 7, the cents order transfer disk I8 moved its lower lobe |8b in front of lug 45' of transfer feeler 45. This action was completed at 45 of the main cycle due to operation of cam 92. At 55 of the main cycle, the carry feeler cam 41-d (see Fig. 6) ,of the'dimes order starts to release its follower 44 for downward movement under the influence of spring 46 connected to associated carry-over feeler lever Lever 45 now rocks counterclockwise (Fig.l

cycle (see Fig. 2). At 80 ofthe main cycle,

the carry over latch cam 38-d of thedimes order (see Fig. 5) starts moving the associated follower 38 downwardly which, through coaction of slot 38' with pin 31, rocks latch 34 of the dimes order downwardly. As a result, shoulder 34 is withdrawn from tab 25 of the dimes rack 25, permitting spring 3| to move the dimes rack forwardly relative to the dimes primary slide 21. Further, since the transfer operation from the cents order has already resulted in fully lowering the shoulder 35a of the dimes transfer pawl 35, out of the way of lug 25a of the dimes rack 25, the spring 3| will movethe dimes rack forwardly relative to its primary slide to the limit'permitted by the length of slots 30 of the primary slide. 'Ihe dimes rack 25, due to its release by arm 33 has previously moved forward relative to its primary slide a half tooth step. 'I'he further ad- Vance of rack 25,d to the limit permitted by `slots 30 of the primary slide equals one-and-ahalf steps. Since the dimes order cam |1b at the end of the reading and surcharge operations was one half step behind the control position, as previously explained, the further advance of dimes order rack 25 through one and a half vsteps brings the l step I1 of cam portion |1b of the dimes order to the control-position in front of slide 52 of the dimes order meter slide 53-d. Thus, the dimes surcharge setting of 2, plus the parcel postage read outof/8, plusthe transfer of 1 from the cents order, has resulted in moving the l step of cam |1b of the dimes order to the control position. In the absence of the 1" transfer from the cents order, the 0 step of dimes order cam |1b would have been in control position. 'I'his is because if the cents order intermediate sleeve assembly had not passed from the 9 to the 0" position, the high lobe |8a of its transfer cam I8 would havestopped movement of levers 44 and 45 (see Fig. 6), and such movement would have been insufficient to cause link 42 to lower shoulder A35a of pawl 35V of the dimes order out of the way of lug 25a of the dimes rack 25-d. Consequently, upon release of dimes order latch 34 from tab 25' of rack 25-d, the latter would have moved forwardly relative to its primary slide "only half a step before being stopped by engagement of lug 25a with shoulder 35a of pawl 35. This half step movement merely would have brought the 0 step of cam |1b of the dimes order to the control position. However, due to the transfer of 1 from the cents order; in the assumed example, the l step of dimes order cam |1b is now, at the end of the action of cams 41-d .and 35i-d, in the control position. This setting of the dimes order cam is completed at about 98 of the cycle (see Fig. 2, fifth lcam line.) i

The position of the dimes order cam |1 may now be read out by the dimes order meter slide 53--d. This is done under control of 'a cam ||5d (see Figs. 4, 5, and '7) on cam shaft 40. Referring to Fig. 5, cam IIS-d is followed by a link IIB pivotally connected'to the dimes positioning arm ||2d which is connected at its upper end to the meter slide 53 of the dimes order. At of the main'cycle (see Fig. 2), the

` cam IIS--d permits link IIS-d to move to the right (Fig. 5), causing positioning arm ||2d and slide 53-d to move similarly, the movement of these parts being yieldingly eifected by a spring ||3d between cents positioning bail rod (previously advanced) and the dimes positioning arm ||2-d. The meter slide 53-d moves to the right until its stud 52 is stopped by engagement with the "1 step of dimes orderrv .between 110 `and 130,of the main cycle to permit the associated feeler 44 to descend and lever 45 to rock counterclockwise. Consequently, the pawl 35 onthe dollars order is moved out of the way of the lug 25a of the dollars rack 25. This action isv completed at 130 (see Fig. 2). The next action is under control of the dollars order cam 39-D (Fig. 10) At 135, the cam SS--D lowersits follower 38 to` cause release of latch .34 of the dollars order from tab 25' of the dollars rack 25.' The dollars order rack 25 thereupon advances to its limit relative to the dollars primary and-a-half steps. and parcel postage reading operations, the step 5 of cam Ila of the dollars order was half a step behind the control position, as explained above. 'I'he further one-and-a-half steps .advanceof rack e-D brings the "6 step of the cam Ila of the dollars order to control position. This action is completed at 155 of the main cycle. At 165, a cam II5-D (Fig. 1 2) causes a link II5D and a connected positioning arm I I2D to move to the right. Arm I I 2-D is connected to the dollar metery slide 53--D, and as a result this meter slide moves to the right until it is arrested by the 6 step of the cam Ila of the dollars order.

; ues, which in the assumed example is $6.10. In

a manner explained before and also described in detail in my Patent 2,120,373, the positions of the meter slides 53 are converted into settings of the type Wheels 58 to print they total of surcharge and parcel postvalues and into entries of the total into the adding register and `the subtracting register B.

It may be noted that the machine may be used merely to print and register a surcharge value by leaving the scale unit in zero load position. Also, the machine may be used merely to print and register the parcel postage by leaving the surcharge disks I I in zero positions.

l While there has been shown and described and pointed out the fundamental novel features of the invention as applied to a single modification. it will be understood that various omissions and substitutions and changes in the form and details of the device illustrated andin its operation maybe made by those skilled inthe art without"- Atlthe endof the surcharge y order. means, connecting one set of selectors to the computing means toadvance the value representing portions in accordance with aselected valueconnections between the other set of selectors and the computing means to advance the 5 value representingportions additionally in accordance with the values selected by the latter set, the total advance of any lower order of the computing means when the sum of the values in the lowerorder selected by both sets ofselectors 10 fails-to exceed -the highest value in said lower order placing the first portion of the lower order of computing means 'with an edge thereof representing such lower order sum in control position and when such lower sum exceeds thel highest 15 vvalue in the lower order placing the second portion of the lower order` of computing means with an edge thereof representing the ultimate lower order value in control position, and transfer means effective when such second portion is placed in control position for advancing the next higher order of computing means an additional unit value amount.

2. In a machine of the class describedfa set of multi-order value selecting members operable in 5' the value for which said members have been set and arrested by said edges after differential movements corresponding to the latter value, connections between the reading devices and the value representing means for transmitting the differential movements of the reading devices to 4 0 advance the value representing means additionally to their previously mentioned advance, and

carry-over means to cause carry-over advance toA an order of the representing means when the preceding order exceeds its capacity, whereby the representing means are given a total advance under control of the two value selecting sets equivalent to the sum of the values selected by both sets. v 3. In a machine of the class described; a set 50 between the computing means and the manually settable selectors for differentially operating the computing means in accordance with the value selected by the latter selectors, cyclically operating means, means operable after the computing means has been operated by the manually settable selectors for initiating a single continuous `cycle of the cyclically operating means and simultaneously disabling the aforesaid connections to render the manually settableselectors ineffective to operate the computing means after the cycle has been initiated, reading devices operated by the cyclleally operating means during the cycle for reading out the value selected by the automatically settable selectors and having means fore.,

operating the computing means to effect addi- 70 lower to the next higher order. of computing orders of computing means, connections between disposed and arranged to correspond to differentA values in the order, connections between the computing means and the manually settable selectors for differentially advancing the computing means according to a manually selected value, cyclically operating means, means operable after the computing means has been advanced by the manual selectors for initiating a single, continuous cycle oi the' operating means, reading devices operated by the cyclically operating means during said cycle for reading out the value selected by the automatically settable V selectors and having means for advancing the computing means to effect additional differential operation oftthe computing means according to the value selected by the automatically settable selectorsr and carryover means for causing carry-over advance of a higher order of computing means when the diierential advances of the next lower order exceeds the capacity of the lower order, both differential advances and the carry-over advance setting those steps of the computing means corresponding to the sum of the values selected by both sets of selectors i control positions.

5. In a machine of the class described, manually settable denominations of selectors for manually selecting values, a denominational set of selectors settable according to a variable for selecting values dependent on' the variable, denominational the first-named selectors and ,the computing means `for entering the manually selected values into the computing means, reading devices for reading out the variable dependent values and including feelers disengaged from the secondnamed selectors during the variable setting thereof and movable into engagement with the latter selectors after the setting thereof, cyclical operating means, means operable after the entry of Athe manuallyselected values into the computing means for initiating a`single, continuous cycle of the operating means, means controlled by the 0D'- erating means during the cycle for causing differential advance of the feelers into engagement lduring a cycle.

means when the lower order exceeds its capacity.- 1both differential operations and the carry-overv operations of the computing means being equivacycle for restoring the reading devices to initial position and thereby withdrawing the entry of the variable-dependent values from the computing means before the end of the cycle.

6. In a machine such as described, a set of manually settable denominations of value selectors, a set of denominational order value selectors settable, independently of the manual selectors, according to a variable, denominational orders of computing means including in each order differentially disposed control elements corresponding to different values in the order, connections between the computing means and the first-named selectors for directly advancing the orders of the computing means diierentially to set elements thereof corresponding to manually selected values in control positions, devices for reading out the second-named rselectors and having connections to the computing means for advancing the latter according to values selected by the latter selectors, carry-over means for causing a carry-over advance of an order of the computing means when the preceding order exceeds its capacity, cyclical operating means having a continuous cycle, means controlled by the operating means for operating the reading devices to read the second-named selectors and through the connections therefrom to the computing means to advance the latter diierentially according to the values selected by the latter selectors, 'both differential advances of the computing means and the carryover advance setting those'elements corresponding to the sum of the values, selected by both sets of'selectors, in control positions, either differential advance'of the computing means, in the absence of 'the other differential advance, setting those elements corresponding to the values selected byfone of the selector sets in control positions, and means operated by the cyclically oper- `ating means for sensing the elements in control positions, and whereby either manually selected values alone or values selected by the secondnamed selectors alone or their sum may besensed 

